TFAP2C Activates CST1 Transcription to Facilitate Breast Cancer Progression and Suppress Ferroptosis.

Cystatin SN (CST1) appears to have pro-tumor effects in breast cancer (BC) and is involved in ferroptosis; however, there is no report on the regulation of ferroptosis by CST1 for BC development. The purpose of this study is to investigate the functions and mechanisms operated by CST1 in BC development and ferroptosis. Transcription Factor Activator Protein 2γ (TFAP2C) and CST1 levels in BC tissues and estrogen receptor (ER)+ cells were quantified by RT-qPCR and western blotting. After knocking down TFAP2C and CST1 expression in MCF7 and T47D cells, the proliferation, colony formation ability, apoptosis, and cell cycle were assessed. Ferroptosis was verified by detecting glutathione peroxidase 4 (GPX4) and 4-hydroxy-2-nonenal (4HNE) levels. The kits were used to test Fe2+, reactive oxygen species, malondialdehyde, and glutathione levels, and ultrastructure of mitochondria was observed through transmission electron microscope. Dual-luciferase reporter assay and chromatin immunoprecipitation test were carried out to investigate the interaction of TFAP2C and CST1. A transplanted tumor model was established to explore the function of TFAP2C in tumorigenesis by quantifying TFAP2C, CST1, Ki67, and GPX4 levels through western blotting and immunochemistry after silencing TFAP2C. TFAP2C and CST1 were predominantly expressed in BC cells. Silencing of TFAP2C or CST1 expression suppressed ER+ BC cell proliferation, promoted apoptosis and ferroptosis, and blocked cell cycle transition from G1 phase to S phase. TFAP2C knockdown in transplanted tumors inhibited tumor growth and GPX4 level. Upregulating CST1 nullified the anti-tumor effects of TFAP2C knockdown and TFAP2C promoted CST1 expression through transcription activation. TFAP2C activates CST1 transcription to facilitate BC development and block ferroptosis.

Preoperative prediction of lymphovascular invasion in invasive breast cancer with dynamic contrast-enhanced-MRI-based radiomics.

BACKGROUND: Lymphovascular invasion (LVI) status facilitates the selection of optimal therapeutic strategy for breast cancer patients, but in clinical practice LVI status is determined in pathological specimens after resection. PURPOSE: To explore the use of dynamic contrast-enhanced (DCE)-magnetic resonance imaging (MRI)-based radiomics for preoperative prediction of LVI in invasive breast cancer. STUDY TYPE: Prospective. POPULATION: Ninety training cohort patients (22 LVI-positive and 68 LVI-negative) and 59 validation cohort patients (22 LVI-positive and 37 LVI-negative) were enrolled. FIELD STRENGTH/SEQUENCE: 1.5 T and 3.0 T, T1 -weighted DCE-MRI. ASSESSMENT: Axillary lymph node (ALN) status for each patient was evaluated based on MR images (defined as MRI ALN status), and DCE semiquantitative parameters of lesions were calculated. Radiomic features were extracted from the first postcontrast DCE-MRI. A radiomics signature was constructed in the training cohort with 10-fold cross-validation. The independent risk factors for LVI were identified and prediction models for LVI were developed. Their prediction performances and clinical usefulness were evaluated in the validation cohort. STATISTICAL TESTS: Mann-Whitney U-test, chi-square test, kappa statistics, least absolute shrinkage and selection operator (LASSO) regression, logistic regression, receiver operating characteristic (ROC) analysis, DeLong test, and decision curve analysis (DCA). RESULTS: Two radiomic features were selected to construct the radiomics signature. MRI ALN status (odds ratio, 10.452; P < 0.001) and the radiomics signature (odds ratio, 2.895; P = 0.031) were identified as independent risk factors for LVI. The value of the area under the curve (AUC) for a model combining both (0.763) was higher than that for MRI ALN status alone (0.665; P = 0.029) and similar to that for the radiomics signature (0.752; P = 0.857). DCA showed that the combined model added more net benefit than either feature alone. DATA CONCLUSION: The DCE-MRI-based radiomics signature in combination with MRI ALN status was effective in predicting the LVI status of patients with invasive breast cancer before surgery. LEVEL OF EVIDENCE: 1 Technical Efficacy Stage: 2 J. Magn. Reson. Imaging 2019;50:847-857.

HIF-1α regulates DcR3 to promote the development of endometriosis.

OBJECTIVE: The aim of this study was to investigate the expression and clinical significance of HIF-1α and DcR3 in endometriosis by analysing clinical case data. Tissue samples were collected for tissue chip analysis and staining, and human endometrial stromal cells were isolated and cultured for cell experiments. Additionally, experiments were conducted on collected peritoneal fluid to explore the association and role of HIF-1α and DcR3 in endometriosis. STUDY DESIGN: Patients who visited the Department of Obstetrics and Gynaecology at Central Hospital in Fengxian District, Shanghai, from January 2018 to December 2021 were recruited for this controlled study. Clinical data and tissue chip staining results were collected for multiple regression analysis on the clinical significance of HIF-1α and DcR3. Endometrial tissue, ovarian cysts, and pelvic fluid were collected, and human endometrial stromal cells were cultured. The impact of HIF-1α on DcR3 in different oxygen environments and its role in endometriosis were investigated through PCR, Western blotting, enzyme-linked immunosorbent assay, as well as adhesion and migration assays. RESULTS: In patients with endometriosis, the expression of DcR3 and HIF-1α was found to be upregulated and correlated in ectopic endometrium. The expression of DcR3 served as an indicator of the severity of endometriosis. Hypoxia induced the expression of DcR3, which was regulated by HIF-1α and promoted migration and adhesion. CONCLUSION: DcR3 can be used as a clinical indicator to assess the severity of endometriosis. The hypoxic environment in endometriosis enhances disease progression by regulating DcR3 through HIF-1α.

Janus Silica Nanoparticle-Based Tumor Microenvironment Modulator for Restoring Tumor Sensitivity to Programmed Cell Death Ligand 1 Immune Checkpoint Blockade Therapy.

An immunosuppressive tumor microenvironment (TME) with inadequate and exhausted tumor-infiltrating cytotoxic lymphocytes and abundant cellular immunosuppressors is the major obstacle responsible for the poor efficacy of PD-1/PD-L1 (programmed cell death 1 and its ligand 1) immune checkpoint blockade (ICB) therapy. Herein, a Janus silica nanoparticle (JSNP)-based immunomodulator is explored to reshape the TME for boosting the therapeutic outcomes of αPD-L1 therapy. The designed JSNP has two distinct domains, namely, an ultra pH-responsive side (UPS), which could encapsulate PI3Kγ inhibitor IPI549 in the pore structure, and a polycation-grafted intra-glutathione (GSH)-sensitive side (IGS), which could absorb CXCL9 cDNA on the surface. The final IPI549@UPS-IGS-PDMAEMA@CXCL9 cDNA (IUIPC) could release IPI549 in weak acid TME to target myeloid-derived suppressor cells (MDSCs) to reverse negative immunoregulation and then release CXCL9 cDNA in tumor cells with abundant GSH for sustained CXCL9 chemokine expression and secretion to improve cytotoxic lymphocyte recruitment signals, thereby jointly restoring tumor sensitivity to PD-1/PD-L1 ICB therapy. As expected, the IUIPC-mediated TME remodeling during αPD-L1 therapy significantly ameliorated TME immunosuppression, as well as induced potent systemic antitumor immune responses, which ultimately achieved a robustly boosted antitumor efficacy proven by remarkable suppression of primary tumor growth, obvious prevention of tumor recurrence, and significant regression of abscopal tumors. Hence, the IUIPC-mediated TME-regulating strategy provides an enormous perspective for the improvement of PD-1/PD-L1 ICB therapy.

Biosynthetic cell membrane vesicles to enhance TRAIL-mediated apoptosis driven by photo-triggered oxidative stress.

Due to its tumor-specificity and limited side effects, tumor necrosis factor-related apoptosis-inducing ligand (TRAIL) has shown great potential in cancer treatments. However, the short half-life of TRAIL protein and the poor death receptor (DR) expression of cancer cells severely compromise the therapeutic outcomes of TRAIL in clinical studies. Herein, a novel ROS-dependent TRAIL-sensitizing nanoplatform, CPT MV, with a Ce6-PLGA core and a TRAIL-modified cell membrane shell was explored to improve the in vivo circulation stability of TRAIL and to amplify TRAIL-induced apoptosis. CPT MV could produce ROS in the targeted cells upon laser irradiation to improve death receptor (DR)-5 expression and trigger Cyt c release from mitochondria. When engaged with TRAIL, the up-regulated DR5 could recruit more Fas-associated death domain (FADD) to transport the extrinsic apoptotic signal to the initiator caspase (caspase 8) and then the executioner caspase (caspase 3), while leaked Cyt c could trigger the intrinsic apoptotic pathway to further strengthen TRAIL-induced apoptosis. Therefore, the designed CPT MV could enhance TRAIL-mediated apoptosis driven by photo-triggered oxidative stress, which provides a very promising approach to clinically overcome tumor resistance to TRAIL therapy.

Babao Dan inhibits lymphangiogenesis of gastric cancer in vitro and in vivo via lncRNA-ANRIL/VEGF-C/VEGFR-3 signaling axis.

Gastric cancer (GC) is one of the most common gastrointestinal malignancies in the world. Growing evidence emphasizes the critical role of long non-coding RNA (lncRNA) in GC tumorigenesis. The aim of the research was to elucidate the effect and mechanism of Babao Dan (BBD) on lymphangiogenesis of GC in vitro and in vivo via lncRNA-ANRIL/VEGF-C/VEGFR-3 signaling axis. The present study investigated BBD significantly decreased the expression of lncRNA-ANRIL and VEGF-C in GC cells (AGS, BGC823, and MGC80-3) by using real-time quantitative polymerasechain reaction (RT-qPCR) and the secretion and expression of VEGF-C by (enzyme linked immunosorbent assay) ELISA and western blot (WB). BBD significantly inhibited the tumor xenograft of GC growth and the expression of lncRNA-ANRIL, VEGF-C, VEGFR-3 and LYVE-1 in vivo. BBD reduced serum VEGF-C level. In vitro, BBD inhibited the tube formation and decreased the cell viability, proliferation and migration of HLECs by using tube formation, MTT, Hoechst and Transwell assays. In addition, WB assay found that BBD decreased the expression levels of VEGF-C, VEGFR-3, matrix metallopeptidase 2 (MMP-2) and matrix metallopeptidase 9 (MMP-9), and RT-qPCR assay found that the mRNA expression levels of lncRNA-ANRIL, VEGF-C, VEGFR-3, MMP-2, MMP-9, CDK4, Cyclin D1, and Bcl-2 were down-regulated, and the expression of p21 and Bax were increased. Taken together, these results demonstrated that BBD inhibited lymphangiogenesis of GC in vitro and in vivo via the lncRNA-ANRIL/VEGF-C/VEGFR-3 signaling axis.

Gold-seaurchin based immunomodulator enabling photothermal intervention and αCD16 transfection to boost NK cell adoptive immunotherapy.

Despite huge potentials of NK cells in adoptive cell therapy (ACT), formidable physical barriers of the tumor tissue and deficiency of recognizing signals on tumor cells severely prevent NK cell infiltrating, activating and killing performances. Herein, a nano-immunomodulator AuNSP@αCD16 (CD16 antibody encoding plasmid) is explored to remodel the tumor microenvironment (TME) for improving the antitumor effects of adoptive NK cells. The as-prepared AuNSP, with a seaurchin-like gold core and a cationic polymer shell, exhibited a high gene transfection efficiency and a stable NIR-II photothermal capacity. The AuNSP could trigger mild photothermal intervention to partly destroy tumors and collapse the dense physical barriers, making a permeable TME for NK cell infiltration. What's more, the AuNSP could achieve αCD16 gene transfection to modify tumor surface with CD16 antibody, marking a unique structure on tumor cells for NK cell recognition and then lead to strong NK cell activation by CD16-mediated antibody-dependent cellular cytotoxicity (ADCC). As expected, the designed AuNSP@αCD16 induced an immune-favorable TME for NK cell performing killing functions against solid tumors, increasing the release of cytolytic granules and proinflammatory cytokines, which ultimately achieved a robustly boosted NK cell-based immunotherapy. Hence, the AuNSP@αCD16-mediated TME reconstituting strategy provides a substantial perspective for NK-based ACT on solid tumors. STATEMENT OF SIGNIFICANCE: In adoptive cell therapy (ACT), natural killer (NK) cells exhibit greater off-the-shelf utility and improved safety comparing with T cells, but the efficacy of NK cell therapy is severely compromised by formidable physical barriers of the tumor tissue and deficiency of NK cell recognizing signals on tumor cells. Herein, a nano-immunomodulator AuNSP@αCD16, with the abilities of inducing mild photothermal intervention and modifying the tumor cell surface with αCD16, is explored to reconstruct an infiltration-favorable and activation-facilitating tumor microenvironment for NK cells to perform killing functions. Such a simple and safe strategy is believed as a very promising candidate for future NK-based ACT.

Case Report: A case of PLA2G6 gene-related early-onset Parkinson's disease and review of literature.

Background: Early onset Parkinson's disease (EOPD) is a neurodegenerative disease associated with the action ofto genetic factors. A mutated phospholipase A2 type VI gene (PLA2G6) is considered to be one of pathogenic genes involved in EOPD development. Although EOPD caused by a mutated PLA2G6 has been recorded in major databases, not all mutant genotypes have been reported. Here, we report a case of PLA2G6-related EOPD caused by a novel compound heterozygous mutation. Case presentation: The case was an of 26-year-old young male with a 2-year course of disease. The onset of the disease was insidious and developed gradually. The patient presented with unsteady walking, bradykinesia, unresponsiveness, and decreased facial expression. Auxiliary examination showed a compound heterozygous mutation of the PLA2G6gene with c.991G > T and c.1427 + 1G > A. Mild atrophy of the cerebrum and cerebellum was detected on brain MRI. The patient was diagnosed with EOPD. We administered treatment with Madopar, which was effective. After a two-year disease course, we observed progression to stage 5 according to the Hoehn-Yahr Scale (without medicine in the off-stage). An MDS-UPDRS III score of 62 was obtained, with characteristics of severe disease and rapid progress. The diagnosis was an EOPD phenotype caused by a combination of mutations at the c.991G > T and c.1427 + 1G > A sites of the PLA2G6gene. Conclusion: After active treatment, the disease was set under control, with no significant progression during the three-month follow-up period. Dyskinesia did not recur after reducing the Madopar dose. The freezing sign was slightly decreased and the wearing-off was delayed to 2 h.

Qingjie Fuzheng Granule suppresses lymphangiogenesis in colorectal cancer via the VEGF-C/VEGFR-3 dependent PI3K/AKT pathway.

SCOPE: To investigate the effect of Qingjie Fuzheng Granule (QFG) on lymphangiogenesis and lymphatic metastasis in colorectal cancer. METHODS: The effects of QFG on the expression and secretion of vascular endothelial growth factor-C (VEGF-C) in HCT-116 cells were investigated both in vitro and in vivo. HCT-116 cells were treated with different concentrations (0.2, 0.5, and 1.0 mg/mL) of QFG. The VEGF-C expression level was determined using RT-qPCR and western blotting, and the VEGF-C concentration in supernatant was measured by ELISA. Tumor xenograft models of HCT-116 cells were generated using BALB/c nude mice, and the mice were randomly divided into a control group (gavaged with normal saline) and QFG group (gavaged with 2 g/kg QFG). The effect of QFG on tumor growth was evaluated by comparing the volume and weight of tumors between two groups. Immunohistochemistry (IHC) and RT-qPCR were performed to detect the expression levels of VEGF-C, vascular endothelial growth factor receptor 3 (VEGFR-3), and LYVE-1 (lymphatic vessel endothelial hyaluronan receptor 1). ELISA was performed to measure the concentration of serum VEGF-C. TMT proteomics technology and Reactome pathway analysis were used to explore the mechanism of QFG inhibiting lymphangiogenesis in tumor. The VEGF-C (5 ng/mL)-stimulated human lymphatic endothelial cell (HLEC) model was conducted to evaluate the effect of QFG on lymphangiogenesis in vitro. The model cells were treated with different concentrations (0.2, 0.5, and 1.0 mg/mL) of QFG. Cell viability was then determined using an MTT assay. The cell migration, invasion, and tube-formation ability were analyzed using transwell migration, matrigel invasion and tube formation assays, respectively. The underlying mechanism was uncovered, the levels of VEGFR-3, matrix metalloproteinase 2 (MMP-2), matrix metalloproteinase 9 (MMP-9), p-PI3K/PI3K, p-AKT/AKT and p-mTOR/ mTOR were detected using western blotting. RESULTS: QFG significantly reduced VEGF-C expression and secretion in HCT-116 cells. QFG evidently suppressed in vivo tumor growth and the expression of VEGF-C, VEGFR-3, and LYVE-1. The serum VEGF-C level was also reduced by QFG. Moreover, TMT proteomics technology and Reactome pathway analysis identified 95 differentially expressed protein and multiple enriched pathway about matrix metalloproteinase and extracellular matrix, which is direct associate with lymphangiogenesis. In vitro experiment, QFG inhibited the viability, migration, invasion and tube formation of HLECs. Additionally, QFG reduced the VEGFR-3, MMP-2, MMP-9 expression levels, and the p-PI3K/PI3K, p-AKT/AKT, p-mTOR/ mTOR ratios. CONCLUSION: QFG can exert its effect on both tumor cells and HLECs, exhibiting ani- lymphangiogenesis in colorectal cancer via the VEGF-C/VEGFR-3 dependent PI3K/AKT pathway pathway.

Effect of Babao Dan on angiogenesis of gastric cancer in vitro by regulating VEGFA/VEGFR2 signaling pathway.

BACKGROUND: To further elucidate the anti-angiogenesis effect of Babao Dan (BBD) in vitro, gastric cancer (GC) cells and human umbilical vein endothelial cells (HUVECs) were used to evaluate the regulation role of BBD by vascular endothelial growth factor A (VEGFA)/vascular endothelial growth factor receptor 2 (VEGFR2) signaling pathway. METHODS: After induced by VEGFA, GC cells (AGS, MGC80-3 and BGC823) were treated by different concentrations of BBD and then were detected cell viability, migration and VEGFA level. And the anti-angiogenesis effect of BBD was evaluated with HUVECs. To furtherly mimic the tumor microenvironment of angiogenesis, VEGFA as an inducer (10 ng/mL) was used to trigger a cascade of angiogenesis of HUVECs in vitro. RESULTS: The viability and migration of GC cells with VEGFA-induced or non-induced and VEGFA levels in GC cells were significantly inhibited by BBD with concentration-dependent manner (P<0.01). BBD significantly inhibited the HUVECs viability with concentration-dependent manner (P<0.01), which was consistent with the inhibitory action on augmentation of cell viability induced by VEGFA (P<0.01). BBD exhibited the similar inhibitory trend on cyto behavioral variability such as wound repairing (P<0.05), migration (P<0.01) and tube formation (P<0.01) and activation effect on cell apoptosis rate (P<0.01) with VEGFA-induced or non-induced. Moreover, BBD notably regulated the levels of VEGFA, VEGFR2, matrix metalloprotein 2 (MMP2) and matrix metalloprotein 9 (MMP9) of HUVECs on present or absent of VEGFA with dose-dependent manner. CONCLUSIONS: BBD inhibited GC growth against VEGFA-induced angiogenesis of HUVECs by VEGFA/VEGFR2 signaling pathway in vitro.

Transbronchoscopic selective bronchial occlusion for intractable pneumothorax.

BACKGROUND AND OBJECTIVE: The aim of this study was to evaluate the efficacy, complications and safety of the application of transbronchoscopic balloon detection (TBD) and selective bronchial occlusion (SBO) to intractable pneumothorax. METHODS: Forty patients with pneumothorax, who had experienced more than 7 days of chest tube drainage without closure of the pleural fistula, underwent TBD and SBO. In 10 patients, oxygenation and pulse rates were recorded. A thoracic CT scan was performed 10 days after SBO. RESULTS: The bronchi leading to the pleural fistula were located by TBD in 34 of 40 patients (85%). The air leakages ceased after the first occlusion in 30 patients, and five of these 30 patients underwent a second occlusion due to recurrence of pneumothorax 72 h after the first occlusion. In three of these patients, air leakages ceased after the second occlusion, while the remaining two patients underwent thoracoscopy. In total, 28 of 40 patients (70%) were cured using SBO. During TBD/SBO, the lowest SaO2 was 89.0 +/- 2.8%, the mean SaO2 was 93.4 +/- 2. 6% and the percentage of time during the procedure that SaO2 was <90% was 10.7 +/- 17.5%. Ten days after SBO, thoracic CT scans were performed on 10 patients and no obstructive atelectasis was detected in any patient. CONCLUSIONS: These results indicate that TBD and SBO are safe and effective procedures for treating patients with intractable pneumothorax.

[Transbronchoscopic balloon detection and selective bronchial occlusion for intractable pneumothorax].

OBJECTIVE: To evaluate the effect, complications and safety of transbronchoscopic balloon detection (TBD) and selective bronchus occlusion (SBO) for intractable pneumothorax. METHODS: Forty cases of pneumothorax from 5 teaching hospitals in Fujian province were included for this study. TBD was performed in all the 40 cases for whom chest tube drainage had lasted for more than 7days but failed to close the pleura fistulae. Bronchi leading to pleura fistulae (the target bronchus) were detected by balloon-catheter (Olympus B7-2C) through bronchoscope. After the target bronchus was located, SBO procedures were performed. Autologous blood (20 ml to 30 ml) was injected into the target bronchus and followed by thrombin solution (1000 U) through balloon-catheter. In 10 cases, oxygenation and pulse rate were recorded by pulse-oximeter (Healthdyne 920M) during TBD and SBO. Another 10 cases undergoing bronchoscope without performing TBD and SBO served as the controls. Thorax CT, white blood cell count, neutrophil count and body temperature were measured after SBO. RESULTS: Bronchi leading to pleura fistulae were located by TBD in 34 out of the 40 cases. Air leakage was stopped after the first occlusion in 30 cases, but 5 of which underwent a second occlusion because of recurrence in 72 h. Of the 5 cases, air leakage was stopped in 3, and surgery was required in 2. Taken together, 28 of the 34 cases were cured by SBO and 6 failed. There were no statistically differences between the treatment group and the control group in oxygenation changes during TBD and SBO procedures. In 10 cases thorax CT scan was followed up in 7 days after SBO, and no obstructive atelectasis was found. In 20 cases peripheral white blood cell count was followed up 72 hours after SBO. Leukocytosis (> 10.0 x 10(9)/L) was found in 3, in which pulmonary infection was diagnosed, and leukocytosis was present in 2 cases before the procedure. Five patients (5/34) experienced mild to moderate fever, which resolved quickly. CONCLUSION: TBD/SBO are safe and effective procedures for intractable pneumothorax.

Higenamine exerts an antispasmodic effect on cold-induced vasoconstriction by regulating the PI3K/Akt, ROS/α2C-AR and PTK9 pathways independently of the AMPK/eNOS/NO axis.

The present study aimed to investigate the antispasmodic effect of higenamine on cold-induced cutaneous vasoconstriction and the underlying molecular mechanisms. A cold-induced cutaneous vasoconstriction rat model was established and different doses of higenamine were delivered by intravenous injection. The changes of cutaneous regional blood flow (RBF) between groups were analyzed. In vitro, the proliferation of human dermal microvascular endothelial cells was measured by MTT. The NO concentration was detected by a nitrate reductase assay. Flow cytometry was applied to measure reactive oxygen species (ROS) levels. The protein expression levels were detected by western blotting. The results demonstrated that in the model group, RBF declined compared with the normal control group, but was reversed by treatment with higenamine. The expression of endothelial nitric oxide synthase (eNOS), phosphorylated (p)-eNOS, protein kinase B (Akt1), p-Akt1, AMP-activated protein kinase (AMPK) α1 and p-AMPKα1 was upregulated by hypothermic treatment but was reversed by higenamine treatment. Treatment with higenamine significantly reduced the level of intracellular α2C-adrenoreceptor (AR) compared with the hypothermia group (P<0.05). Furthermore, the expression of twinfilin-1 (PTK9) was downregulated in the higenamine and positive control groups compared with the hypothermia group (P<0.05). Compared with the hypothermia group, the levels of ROS and α2C-AR (intracellular & membrane) were decreased in higenamine and the positive control group (P<0.05 and P<0.01, respectively). This study, to the best of our knowledge, is the first to assess the effects of higenamine on cold-induced vasoconstriction in vivo and its molecular mechanisms on the PI3K/Akt, AMPK/eNOS/nitric oxide, ROS/α2C-AR and PTK9 signaling pathways under hypothermia conditions. Higenamine may be a good therapeutic option for Raynaud's phenomenon (RP) and cold-induced vasoconstriction.

Neuronal EphA4 Regulates OGD/R-Induced Apoptosis by Promoting Alternative Activation of Microglia.

Accumulating evidence indicates that post-injury inflammation characterized by activated microglia contributes much to the neuropathology of ischemic injury. Several studies have demonstrated that microglia exhibit two entirely different functional activation states, referred to as classically activated (M1) and alternatively activated (M2) phenotype. Promoting microglial phenotype to switch from M1 dominant to M2 dominant might be a promising approach for handling ischemic injury. However, the comprehensive mechanism that underlines microglia polarization in ischemic brain remains unclear. Neuronal erythropoietin-producing human hepatocellular carcinoma cell receptor 4 (EphA4), the richest Eph receptor in the central nervous system (CNS), upregulate after ischemia and may have the potential to regulate microglia activation. We hypothesized that modulating EphA4/ephrin signaling could affect ischemic injury through controlling microglia polarization. We therefore knocked down neuronal EphA4 with short hairpin RNA (shRNA) and determined the role of EphA4/ephrin signaling in oxygen-glucose deprivation and reperfusion (OGD/R)-induced injury. We found that EphA4 shRNA treatment attenuated OGD/R-induced apoptosis and microglia proliferation. Neuronal EphA4 knockdown also promoted microglial M2 polarization, which reduced pro-inflammatory mediators and released anti-inflammatory cytokines as well as neurotrophic factors. We further revealed that EphA4 shRNA treatment functioned through RhoA/Rho-associated kinase 2 (ROCK2) signaling, a key mediator of microglia alternative activation. Together, these data suggested that blockage of EphA4/ephrin signaling between neuron and microglia decreased OGD/R-induced injury by promoting alternative activation of microglia via RhoA/ROCK2 signaling.

[Evaluation of the bleb morphology and the function of post filtration surgery using slit-lamp adapted optical coherence tomography and ultrasound biomicroscopy in glaucoma patients].

OBJECTIVE: To analyze the morphology and the function of subconjunctival filtering bleb in patients with glaucoma by slit-lamp adapted optical coherence tomography (SL-OCT) and ultrasound biomicroscopy (UBM). METHODS: This retrospective study comprised 53 patients with glaucoma filtering surgery from 2002 to 2006. The post-operation blebs in 69 eyes of 53 patients were scanned by a SL-OCT or UBM and categorized by the reference of intrableb morphology. The function of post operation bleb was clarified using Singh's or Yamamoto's criterion. The results of SL-OCT scanning were compared with those of UBM. RESULTS: This is a comparative study. The blebs were classified into four categories according to the images of filtering blebs' by SL-OCT or UBM. SL-OCT had 92.7% (38/41 eyes) sensitivity in predicting a functioning bleb by Singh's standard and 83.3% (20/24 eyes) specificity in predicting a nonfunctioning bleb, whereas, UBM had 66.7% (30/45 eyes) and 75.0% (18/24 eyes) by Yamamoto's criterion, respectively. The sensitivity in predicting a functioning bleb in the SL-OCT group was significantly (P = 0.003, Fisher exact test) different from the UBM group. CONCLUSIONS: Our results suggest that SL-OCT scanning has more sensitivity and specificity than UBM in evaluating the function of filtering bleb. The close relationship between the function and the morphological classification provides an important objective basis in evaluating the outcome of antiglaucomatous surgery.

Experimental Study of Antiatherosclerosis Effects with Hederagenin in Rats.

The research tries to establish Wistar rat's model of atherosclerosis for evaluating the antiatherosclerotic effect of hederagenin and exploring its antiatherosclerosis-related mechanisms. The statistical data have shown that hederagenin exhibits multiple pharmacological activities in the treatment of hyperlipidemia, antiplatelet aggregation, liver protection, and anti-inflammation, indicating that hederagenin may exert a protective effect on vascular walls by improving lipid metabolism disorders and lipid deposition. The results show that hederagenin can correct the imbalance of endothelial function by inhibiting the release of large amounts of iNOS and increasing eNOS contents and inhibits the IKKß/NF-κB signaling pathway to reduce the release of IL-6, IFN-γ, TNF-α, and other inflammatory factors. The experimental results indicated that hederagenin can inhibit or ameliorate the pathological changes associated with AS, displaying an excellent preventive function against AS.

Effects of Kaixin Powder on melatonin receptor expression and (125)I-Mel binding affinity in a rat model of depression.

OBJECTIVE: To explore the effects of Kaixin Powder (, KXP) on melatonin receptor (MR) expression and (125)I-Mel binding affinity in a depression rat model. METHODS: Seventy-two male Wistar rats were divided into six groups: a blank control group, model group, ramelteon group, KXP high-dosage group (HKXP), medium-dosage group (MKXP) and low-dosage group (LKXP). To establish the depression model, all groups except the blank control group were singly housed and exposed to chronic unpredictable mild stress. Weight gain, sucrose consumption and the open-field test were used to evaluate induction of depression. KXP at 260, 130 and 65 mg/(kg•d) was also respectively administered to the rats in the HKXP, MKXP and LKXP groups for 21 days. Ramelteon [0.83 mg/(kg•d)] was given to the positive drug control group. An equivalent volume of physiological saline was given to the blank and model groups. The liquid chip method was used to measure the concentration of plasma melatonin (MT). Mel1a (MT1) and Mel1b (MT2) expression levels were determined by Western blotting. In addition, a radioactive ligand-binding assay was used to analyze the specific binding properties and dynamic characteristics between MR and (125)I-Mel. RESULTS: The results of weight gain, sucrose consumption and the open-field test showed that our model successfully produced depressive symptoms and depressive-like behavior. The concentration of plasma MT in the model group decreased significantly at night but increased in the MKXP group (P<0.05). The HKXP group showed significantly increased expression of MT1 (P<0.05); however, the expression of MT2 in all groups exhibited no significant differences (P>0.05). The maximum binding capacity (B(max)) for specific binding between MR and 125I-Mel in the MKXP group was significantly higher than that in the model group (P<0.05), but no significant differences were found in the equilibrium dissociation constant (K(d)) of each group (P>0.05). CONCLUSIONS: KXP may have a similar effect as ramelteon. KXP improved depressive-like behavior by increasing the concentration of plasma MT and MT1 expression, thereby increasing three B(max) of MR to achieve the desired antidepressant effect.

Daidzein and genistein fail to improve glycemic control and insulin sensitivity in Chinese women with impaired glucose regulation: A double-blind, randomized, placebo-controlled trial.

SCOPE: This randomized, double-blind, and placebo-controlled trial evaluated the effect of isolated daidzein and genistein on glycemic control and insulin sensitivity in 165 Chinese women aged 30-70 with impaired glucose regulation (IGR). METHODS AND RESULTS: Participants were randomly assigned to one of three groups with a daily dose of 10 g of soy protein plus (i) no addition, (ii) 50 mg of daidzein, or (iii) 50 mg of genistein for 24 wk. Fasting glucose (FG), insulin, and glycosylated hemoglobin (HbA1c ), and glucose concentrations at 30, 60, 120, and 180 min and insulin concentrations at 30, 60, and 120 min after an oral 75-g glucose tolerance test were assessed at baseline and at 12 and 24 wk postintervention. a total of 158 and 151 subjects completed the measures at wk 12 and 24, respectively. There were no significant differences in the changes (%) of FG and the 2-h glucose, HbA1c , fasting, and 2-h insulin or the area under the curve of glucose and insulin between the three treatment groups at wk 12 or 24 (all p > 0.05). CONCLUSION: Neither isolated daidzein nor genistein has a significant effect on glycemic control and insulin sensitivity in Chinese women with IGR over a 6-month supplementation period.

The effects of dexamethasone on the proliferation and apoptosis of human ovarian cancer cells induced by paclitaxel.

BACKGROUND: Dexamethasone (DEX) has been routinely used as a pre-treatment in the clinical application of paclitaxel (PTX) to treat ovarian cancer. However, PTX-induced apoptosis might be inhibited by DEX. This study was undertaken to investigate the effects of DEX on the apoptosis induced by PTX. METHODS: Both of SKOV-3 and HO-8910 human ovarian cancer cells were divided into four groups: (1) untreated (Con); (2) treated with DEX (0.1 µM) alone; (3) treated with PTX (50 nM); and (4) pre-treated with DEX (0.1 µM), and 24 h later, treated with PTX (DEX + PTX). Cell proliferation was determined by the 3-(4,5)-dimethylthiahiazo (-z-y1)-3,5-di- phenytetrazoliumromide (MTT) dye uptake method, while cell apoptosis was analyzed by propidium iodide (PI) staining and flow cytometry. Then, reverse transcription polymerase chain reactions (RT-PCRs) were applied to semi-quantitative analysis, followed by western blot analysis. Statistical analysis was performed, with Fisher's least significant difference test. RESULTS: Our results demonstrated that DEX can differentially inhibit SKOV-3 and HO-8910 cell proliferation induced by PTX and decrease the apoptosis rates in cancer cells. Pre-treatment with DEX could up-regulate the expressions of members of anti-apoptotic Bcl-2 family (Bcl-2 and Bcl-XL) and members of IAP family (survivin). The expression of cleaved caspase-3 was down-regulated by DEX, shown by semi-quantitative RT-PCRs and western blot analysis. CONCLUSIONS: Our data gained invaluable insights of the antagonistic mechanisms of DEX on PTX-induced cancer cell death and may provide new methods of using DEX as antineoplastic drugs or agents in the clinical treatment for ovarian cancer patients.